473 lines
12 KiB
C++
473 lines
12 KiB
C++
/*
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This file is part of Telegram Desktop,
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the official desktop application for the Telegram messaging service.
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For license and copyright information please follow this link:
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https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL
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*/
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#include "lottie/lottie_frame_renderer.h"
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#include "lottie/lottie_animation.h"
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#include "logs.h"
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#include "rlottie.h"
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#include <range/v3/algorithm/find.hpp>
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#include <range/v3/algorithm/count_if.hpp>
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#include <QPainter>
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namespace Images {
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QImage prepareColored(QColor add, QImage image);
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} // namespace Images
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namespace Lottie {
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namespace {
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constexpr auto kDisplaySkipped = crl::time(-1);
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constexpr auto kMaxFrameRate = 120;
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constexpr auto kMaxSize = 3096;
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std::weak_ptr<FrameRenderer> GlobalInstance;
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constexpr auto kImageFormat = QImage::Format_ARGB32_Premultiplied;
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bool GoodStorageForFrame(const QImage &storage, QSize size) {
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return !storage.isNull()
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&& (storage.format() == kImageFormat)
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&& (storage.size() == size)
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&& storage.isDetached();
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}
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QImage CreateFrameStorage(QSize size) {
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return QImage(size, kImageFormat);
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}
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} // namespace
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class FrameRendererObject final {
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public:
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explicit FrameRendererObject(
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crl::weak_on_queue<FrameRendererObject> weak);
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void append(std::unique_ptr<SharedState> entry);
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void frameShown(not_null<SharedState*> entry);
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void updateFrameRequest(
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not_null<SharedState*> entry,
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const FrameRequest &request);
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void remove(not_null<SharedState*> entry);
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private:
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struct Entry {
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std::unique_ptr<SharedState> state;
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FrameRequest request;
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};
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static not_null<SharedState*> StateFromEntry(const Entry &entry) {
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return entry.state.get();
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}
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void queueGenerateFrames();
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void generateFrames();
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crl::weak_on_queue<FrameRendererObject> _weak;
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std::vector<Entry> _entries;
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bool _queued = false;
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};
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[[nodiscard]] bool GoodForRequest(
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const QImage &image,
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const FrameRequest &request) {
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if (request.box.isEmpty()) {
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return true;
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} else if (request.colored.has_value()) {
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return false;
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}
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const auto size = image.size();
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return (request.box.width() == size.width())
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|| (request.box.height() == size.height());
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}
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[[nodiscard]] QImage PrepareByRequest(
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const QImage &original,
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const FrameRequest &request,
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QImage storage) {
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Expects(!request.box.isEmpty());
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const auto size = request.size(original.size());
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if (!GoodStorageForFrame(storage, size)) {
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storage = CreateFrameStorage(size);
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}
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storage.fill(Qt::transparent);
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{
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QPainter p(&storage);
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p.setRenderHint(QPainter::Antialiasing);
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p.setRenderHint(QPainter::SmoothPixmapTransform);
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p.setRenderHint(QPainter::HighQualityAntialiasing);
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p.drawImage(QRect(QPoint(), size), original);
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}
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if (request.colored.has_value()) {
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storage = Images::prepareColored(*request.colored, std::move(storage));
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}
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return storage;
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}
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QImage PrepareFrameByRequest(
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not_null<Frame*> frame,
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bool useExistingPrepared = false) {
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Expects(!frame->original.isNull());
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if (GoodForRequest(frame->original, frame->request)) {
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return frame->original;
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} else if (frame->prepared.isNull() || !useExistingPrepared) {
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frame->prepared = PrepareByRequest(
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frame->original,
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frame->request,
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std::move(frame->prepared));
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}
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return frame->prepared;
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}
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FrameRendererObject::FrameRendererObject(
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crl::weak_on_queue<FrameRendererObject> weak)
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: _weak(std::move(weak)) {
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}
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void FrameRendererObject::append(std::unique_ptr<SharedState> state) {
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_entries.push_back({ std::move(state) });
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queueGenerateFrames();
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}
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void FrameRendererObject::frameShown(not_null<SharedState*> entry) {
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queueGenerateFrames();
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}
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void FrameRendererObject::updateFrameRequest(
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not_null<SharedState*> entry,
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const FrameRequest &request) {
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const auto i = ranges::find(_entries, entry, &StateFromEntry);
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Assert(i != end(_entries));
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i->request = request;
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}
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void FrameRendererObject::remove(not_null<SharedState*> entry) {
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const auto i = ranges::find(_entries, entry, &StateFromEntry);
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Assert(i != end(_entries));
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_entries.erase(i);
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}
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void FrameRendererObject::generateFrames() {
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const auto renderOne = [&](const Entry & entry) {
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return entry.state->renderNextFrame(entry.request);
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};
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if (ranges::count_if(_entries, renderOne) > 0) {
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queueGenerateFrames();
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}
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}
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void FrameRendererObject::queueGenerateFrames() {
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if (_queued) {
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return;
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}
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_queued = true;
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_weak.with([](FrameRendererObject &that) {
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that._queued = false;
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that.generateFrames();
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});
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}
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SharedState::SharedState(std::unique_ptr<rlottie::Animation> animation)
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: _animation(std::move(animation)) {
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Expects(_animation != nullptr);
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calculateProperties();
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if (isValid()) {
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auto cover = QImage();
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renderFrame(cover, FrameRequest(), 0);
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init(std::move(cover));
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}
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}
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void SharedState::calculateProperties() {
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auto width = size_t(0);
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auto height = size_t(0);
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_animation->size(width, height);
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const auto rate = _animation->frameRate();
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const auto count = _animation->totalFrame();
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_size = QSize(
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(width > 0 && width < kMaxSize) ? int(width) : 0,
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(height > 0 && height < kMaxSize) ? int(height) : 0);
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_frameRate = (rate >= 1. && rate <= kMaxFrameRate) ? int(rate) : 0;
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_framesCount = (count > 0) ? int(count) : 0;
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}
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bool SharedState::isValid() const {
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return (_framesCount > 0) && (_frameRate > 0) && !_size.isEmpty();
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}
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void SharedState::renderFrame(
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QImage &image,
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const FrameRequest &request,
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int index) {
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if (!isValid()) {
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return;
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}
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const auto size = request.box.isEmpty() ? _size : request.size(_size);
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if (!GoodStorageForFrame(image, size)) {
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image = CreateFrameStorage(size);
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}
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image.fill(Qt::transparent);
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auto surface = rlottie::Surface(
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reinterpret_cast<uint32_t*>(image.bits()),
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image.width(),
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image.height(),
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image.bytesPerLine());
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_animation->renderSync(index, surface);
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}
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void SharedState::init(QImage cover) {
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Expects(!initialized());
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_duration = crl::time(1000) * _framesCount / _frameRate;
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_frames[0].original = std::move(cover);
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_frames[0].position = 0;
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// Usually main thread sets displayed time before _counter increment.
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// But in this case we update _counter, so we set a fake displayed time.
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_frames[0].displayed = kDisplaySkipped;
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_counter.store(0, std::memory_order_release);
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}
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void SharedState::start(not_null<Animation*> owner, crl::time now) {
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_owner = owner;
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_started = now;
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}
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bool IsRendered(not_null<const Frame*> frame) {
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return (frame->position != kTimeUnknown)
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&& (frame->displayed == kTimeUnknown);
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}
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void SharedState::renderNextFrame(
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not_null<Frame*> frame,
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const FrameRequest &request) {
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Expects(_framesCount > 0);
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renderFrame(frame->original, request, (++_frameIndex) % _framesCount);
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PrepareFrameByRequest(frame);
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frame->position = crl::time(1000) * _frameIndex / _frameRate;
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frame->displayed = kTimeUnknown;
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}
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bool SharedState::renderNextFrame(const FrameRequest &request) {
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const auto prerender = [&](int index) {
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const auto frame = getFrame(index);
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const auto next = getFrame((index + 1) % kFramesCount);
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if (!IsRendered(frame)) {
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renderNextFrame(frame, request);
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return true;
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} else if (!IsRendered(next)) {
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renderNextFrame(next, request);
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return true;
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}
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return false;
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};
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const auto present = [&](int counter, int index) {
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const auto frame = getFrame(index);
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if (!IsRendered(frame)) {
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renderNextFrame(frame, request);
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}
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frame->display = _started + _accumulatedDelayMs + frame->position;
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// Release this frame to the main thread for rendering.
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_counter.store(
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(counter + 1) % (2 * kFramesCount),
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std::memory_order_release);
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crl::on_main(_owner, [=] {
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_owner->checkStep();
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});
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return true;
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};
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switch (counter()) {
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case 0: return present(0, 1);
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case 1: return prerender(2);
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case 2: return present(2, 2);
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case 3: return prerender(3);
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case 4: return present(4, 3);
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case 5: return prerender(0);
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case 6: return present(6, 0);
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case 7: return prerender(1);
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}
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Unexpected("Counter value in VideoTrack::Shared::prepareState.");
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}
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int SharedState::counter() const {
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return _counter.load(std::memory_order_acquire);
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}
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bool SharedState::initialized() const {
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return (counter() != kCounterUninitialized);
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}
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not_null<Frame*> SharedState::getFrame(int index) {
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Expects(index >= 0 && index < kFramesCount);
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return &_frames[index];
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}
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not_null<const Frame*> SharedState::getFrame(int index) const {
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Expects(index >= 0 && index < kFramesCount);
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return &_frames[index];
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}
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Information SharedState::information() const {
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if (!isValid()) {
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return {};
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}
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auto result = Information();
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result.frameRate = _frameRate;
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result.size = _size;
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result.framesCount = _framesCount;
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return result;
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}
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not_null<Frame*> SharedState::frameForPaint() {
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const auto result = getFrame(counter() / 2);
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Assert(!result->original.isNull());
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Assert(result->position != kTimeUnknown);
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Assert(result->displayed != kTimeUnknown);
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return result;
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}
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crl::time SharedState::nextFrameDisplayTime() const {
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const auto frameDisplayTime = [&](int counter) {
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const auto next = (counter + 1) % (2 * kFramesCount);
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const auto index = next / 2;
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const auto frame = getFrame(index);
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if (frame->displayed != kTimeUnknown) {
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// Frame already displayed, but not yet shown.
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return kTimeUnknown;
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}
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Assert(IsRendered(frame));
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Assert(frame->display != kTimeUnknown);
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return frame->display;
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};
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switch (counter()) {
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case 0: return kTimeUnknown;
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case 1: return frameDisplayTime(1);
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case 2: return kTimeUnknown;
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case 3: return frameDisplayTime(3);
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case 4: return kTimeUnknown;
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case 5: return frameDisplayTime(5);
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case 6: return kTimeUnknown;
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case 7: return frameDisplayTime(7);
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}
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Unexpected("Counter value in VideoTrack::Shared::nextFrameDisplayTime.");
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}
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crl::time SharedState::markFrameDisplayed(crl::time now) {
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const auto mark = [&](int counter) {
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const auto next = (counter + 1) % (2 * kFramesCount);
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const auto index = next / 2;
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const auto frame = getFrame(index);
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Assert(frame->position != kTimeUnknown);
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Assert(frame->displayed == kTimeUnknown);
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frame->displayed = now;
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_accumulatedDelayMs += (frame->displayed - frame->display);
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return frame->position;
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};
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switch (counter()) {
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case 0: Unexpected("Value 0 in SharedState::markFrameDisplayed.");
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case 1: return mark(1);
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case 2: Unexpected("Value 2 in SharedState::markFrameDisplayed.");
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case 3: return mark(3);
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case 4: Unexpected("Value 4 in SharedState::markFrameDisplayed.");
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case 5: return mark(5);
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case 6: Unexpected("Value 6 in SharedState::markFrameDisplayed.");
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case 7: return mark(7);
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}
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Unexpected("Counter value in Lottie::SharedState::markFrameDisplayed.");
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}
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crl::time SharedState::markFrameShown() {
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const auto jump = [&](int counter) {
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const auto next = (counter + 1) % (2 * kFramesCount);
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const auto index = next / 2;
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const auto frame = getFrame(index);
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Assert(frame->position != kTimeUnknown);
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if (frame->displayed == kTimeUnknown) {
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return kTimeUnknown;
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}
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_counter.store(
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next,
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std::memory_order_release);
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return frame->position;
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};
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switch (counter()) {
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case 0: return kTimeUnknown;
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case 1: return jump(1);
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case 2: return kTimeUnknown;
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case 3: return jump(3);
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case 4: return kTimeUnknown;
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case 5: return jump(5);
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case 6: return kTimeUnknown;
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case 7: return jump(7);
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}
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Unexpected("Counter value in Lottie::SharedState::markFrameShown.");
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}
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SharedState::~SharedState() = default;
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std::shared_ptr<FrameRenderer> FrameRenderer::Instance() {
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if (auto result = GlobalInstance.lock()) {
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return result;
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}
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auto result = std::make_shared<FrameRenderer>();
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GlobalInstance = result;
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return result;
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}
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void FrameRenderer::append(std::unique_ptr<SharedState> entry) {
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_wrapped.with([entry = std::move(entry)](
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FrameRendererObject &unwrapped) mutable {
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unwrapped.append(std::move(entry));
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});
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}
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void FrameRenderer::frameShown(not_null<SharedState*> entry) {
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_wrapped.with([=](FrameRendererObject &unwrapped) {
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unwrapped.frameShown(entry);
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});
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}
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void FrameRenderer::updateFrameRequest(
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not_null<SharedState*> entry,
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const FrameRequest &request) {
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_wrapped.with([=](FrameRendererObject &unwrapped) {
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unwrapped.updateFrameRequest(entry, request);
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});
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}
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void FrameRenderer::remove(not_null<SharedState*> entry) {
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_wrapped.with([=](FrameRendererObject &unwrapped) {
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unwrapped.remove(entry);
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});
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}
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} // namespace Lottie
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